----------------------------------------------------------------------------- -- . adapter revision unknown -- . deal.II 9.2.0 (revision unknown) ----------------------------------------------------------------------------- ---[precice]  This is preCICE version 2.3.0 ---[precice]  Revision info: no-info [Git failed/Not a repository] ---[precice]  Configuration: Release (Debug and Trace log unavailable) ---[precice]  Configuring preCICE with configuration "precice-config.xml" ---[precice]  I am participant "Solid" Making the grid ... Setting up the system ... Triangulation: Number of active cells: 32,000 Polynomial degree: 1 Number of degrees of freedom: 192,240 Output written to solution-0.vtk Assembling the system ... Assembled ... Initializing preCICE .... Number of coupling nodes: 32,040 ---[precice]  Setting up master communication to coupling partner/s ---[precice]  Masters are connected ---[precice]  Setting up preliminary slaves communication to coupling partner/s ---[precice]  Receive global mesh Fluid-Mesh-Centers ---[precice]  Receive global mesh Fluid-Mesh-Nodes ---[precice]  Prepare partition for mesh Solid_mesh ---[precice]  Gather mesh Solid_mesh ---[precice]  Send global mesh Solid_mesh ---[precice]  Setting up slaves communication to coupling partner/s ---[precice]  Slaves are connected ---[precice]  Compute "read" mapping from mesh "Fluid-Mesh-Centers" to mesh "Solid_mesh". ---[precice]  Mapping distance min:8.81073e-06 max:0.000570596 avg: 0.000199953 var: 7.70542e-09 cnt: 32040 ---[precice]  iteration: 1 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, write-iteration-checkpoint Starting the time loop steered by preCICE .... Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.00e+00, limit = 1.00e-04, normalization = 3.46e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.00e+00, limit = 1.00e-04, normalization = 2.28e-04, conv = false ---[precice]  iteration: 2 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.31e-01, limit = 1.00e-04, normalization = 5.17e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.39e-01, limit = 1.00e-04, normalization = 3.70e-04, conv = false ---[precice]  iteration: 3 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.55e-03, limit = 1.00e-04, normalization = 5.16e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.09e+00, limit = 1.00e-04, normalization = 3.90e-04, conv = false ---[precice]  iteration: 4 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.94e-03, limit = 1.00e-04, normalization = 5.19e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.25e+00, limit = 1.00e-04, normalization = 4.33e-04, conv = false ---[precice]  iteration: 5 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.50e-03, limit = 1.00e-04, normalization = 5.19e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.24e+00, limit = 1.00e-04, normalization = 4.43e-04, conv = false ---[precice]  iteration: 6 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.87e-02, limit = 1.00e-04, normalization = 5.29e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.72e+00, limit = 1.00e-04, normalization = 5.92e-04, conv = false ---[precice]  iteration: 7 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.94e-03, limit = 1.00e-04, normalization = 5.30e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.60e+00, limit = 1.00e-04, normalization = 6.14e-04, conv = false ---[precice]  iteration: 8 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.41e-02, limit = 1.00e-04, normalization = 5.37e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.89e+00, limit = 1.00e-04, normalization = 7.37e-04, conv = false ---[precice]  iteration: 9 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.30e-02, limit = 1.00e-04, normalization = 5.12e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.58e-01, limit = 1.00e-04, normalization = 3.13e-04, conv = false ---[precice]  iteration: 10 of 10, time-window: 1, time: 0 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 1 @ 0.000500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.97e-02, limit = 1.00e-04, normalization = 5.02e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.32e+00, limit = 1.00e-04, normalization = 1.59e-04, conv = false ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.06e+00, limit = 1.00e-04, normalization = 1.64e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.85e-01, limit = 1.00e-04, normalization = 7.35e-04, conv = false ---[precice]  iteration: 2 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.95e-01, limit = 1.00e-04, normalization = 1.39e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.83e+00, limit = 1.00e-04, normalization = 7.26e-04, conv = false ---[precice]  iteration: 3 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.05e-02, limit = 1.00e-04, normalization = 1.39e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.19e-01, limit = 1.00e-04, normalization = 7.49e-04, conv = false ---[precice]  iteration: 4 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.13e-02, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.32e-01, limit = 1.00e-04, normalization = 7.98e-04, conv = false ---[precice]  iteration: 5 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.96e-03, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.89e-01, limit = 1.00e-04, normalization = 8.12e-04, conv = false ---[precice]  iteration: 6 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.51e-04, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.93e-01, limit = 1.00e-04, normalization = 8.13e-04, conv = false ---[precice]  iteration: 7 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.08e-04, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.00e-01, limit = 1.00e-04, normalization = 8.16e-04, conv = false ---[precice]  iteration: 8 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.62e-03, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.31e-01, limit = 1.00e-04, normalization = 8.26e-04, conv = false ---[precice]  iteration: 9 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.08e-02, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.11e-01, limit = 1.00e-04, normalization = 7.59e-04, conv = false ---[precice]  iteration: 10 of 10, time-window: 2, time: 0.0005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 2 @ 0.001000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.31e-02, limit = 1.00e-04, normalization = 1.40e+06, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.51e-02, limit = 1.00e-04, normalization = 6.15e-04, conv = false ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.08e+01, limit = 1.00e-04, normalization = 6.55e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.20e-01, limit = 1.00e-04, normalization = 9.26e-04, conv = false ---[precice]  iteration: 2 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.01e+00, limit = 1.00e-04, normalization = 1.05e+07, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.19e+00, limit = 1.00e-04, normalization = 4.80e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.38e+01, limit = 1.00e-04, normalization = 3.13e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.80e-02, limit = 1.00e-04, normalization = 1.02e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.51e-02, limit = 1.00e-04, normalization = 3.04e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.80e-02, limit = 1.00e-04, normalization = 1.00e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.77e-03, limit = 1.00e-04, normalization = 3.03e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.43e-04, limit = 1.00e-04, normalization = 9.96e-04, conv = false ---[precice]  iteration: 6 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.90e-04, limit = 1.00e-04, normalization = 3.03e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.38e-04, limit = 1.00e-04, normalization = 9.96e-04, conv = false ---[precice]  iteration: 7 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.46e-04, limit = 1.00e-04, normalization = 3.03e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.67e-05, limit = 1.00e-04, normalization = 9.96e-04, conv = true ---[precice]  iteration: 8 of 10, time-window: 3, time: 0.001 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 3 @ 0.001500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.83e-05, limit = 1.00e-04, normalization = 3.03e+05, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.18e-05, limit = 1.00e-04, normalization = 9.96e-04, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.35e+00, limit = 1.00e-04, normalization = 9.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.14e-01, limit = 1.00e-04, normalization = 9.96e-04, conv = false ---[precice]  iteration: 2 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.98e-01, limit = 1.00e-04, normalization = 1.75e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.54e-02, limit = 1.00e-04, normalization = 1.11e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.22e-01, limit = 1.00e-04, normalization = 1.57e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.43e-02, limit = 1.00e-04, normalization = 1.10e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.06e-02, limit = 1.00e-04, normalization = 1.55e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.03e-03, limit = 1.00e-04, normalization = 1.10e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.40e-03, limit = 1.00e-04, normalization = 1.55e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.69e-04, limit = 1.00e-04, normalization = 1.10e-03, conv = false ---[precice]  iteration: 6 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.28e-04, limit = 1.00e-04, normalization = 1.55e+05, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.02e-06, limit = 1.00e-04, normalization = 1.10e-03, conv = true ---[precice]  iteration: 7 of 10, time-window: 4, time: 0.0015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 4 @ 0.002000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.93e-06, limit = 1.00e-04, normalization = 1.55e+05, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.94e-07, limit = 1.00e-04, normalization = 1.10e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.66e+00, limit = 1.00e-04, normalization = 1.85e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.27e-01, limit = 1.00e-04, normalization = 1.28e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.05e+00, limit = 1.00e-04, normalization = 1.98e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.04e-02, limit = 1.00e-04, normalization = 1.24e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.53e-01, limit = 1.00e-04, normalization = 2.22e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.31e-02, limit = 1.00e-04, normalization = 1.25e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.52e-02, limit = 1.00e-04, normalization = 2.30e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.19e-04, limit = 1.00e-04, normalization = 1.26e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.29e-03, limit = 1.00e-04, normalization = 2.30e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.65e-05, limit = 1.00e-04, normalization = 1.26e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.48e-04, limit = 1.00e-04, normalization = 2.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.63e-06, limit = 1.00e-04, normalization = 1.26e-03, conv = true ---[precice]  iteration: 7 of 10, time-window: 5, time: 0.002 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 5 @ 0.002500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.10e-05, limit = 1.00e-04, normalization = 2.31e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.63e-07, limit = 1.00e-04, normalization = 1.26e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 6, time: 0.0025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 6 @ 0.003000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.31e-01, limit = 1.00e-04, normalization = 2.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.45e-01, limit = 1.00e-04, normalization = 1.57e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 6, time: 0.0025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 6 @ 0.003000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.06e-01, limit = 1.00e-04, normalization = 7.34e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.75e-02, limit = 1.00e-04, normalization = 1.57e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 6, time: 0.0025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 6 @ 0.003000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.89e-01, limit = 1.00e-04, normalization = 5.71e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.47e-03, limit = 1.00e-04, normalization = 1.57e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 6, time: 0.0025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 6 @ 0.003000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.23e-02, limit = 1.00e-04, normalization = 5.53e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.42e-04, limit = 1.00e-04, normalization = 1.57e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 6, time: 0.0025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 6 @ 0.003000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.65e-04, limit = 1.00e-04, normalization = 5.54e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.75e-05, limit = 1.00e-04, normalization = 1.57e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 6, time: 0.0025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 6 @ 0.003000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.88e-05, limit = 1.00e-04, normalization = 5.54e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.74e-06, limit = 1.00e-04, normalization = 1.57e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.26e+00, limit = 1.00e-04, normalization = 1.77e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.08e-01, limit = 1.00e-04, normalization = 2.16e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.53e+00, limit = 1.00e-04, normalization = 3.08e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.08e-01, limit = 1.00e-04, normalization = 2.15e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.38e+00, limit = 1.00e-04, normalization = 1.29e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.65e-02, limit = 1.00e-04, normalization = 2.14e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.47e-01, limit = 1.00e-04, normalization = 1.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.73e-04, limit = 1.00e-04, normalization = 2.13e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.05e-02, limit = 1.00e-04, normalization = 1.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.12e-05, limit = 1.00e-04, normalization = 2.13e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.65e-03, limit = 1.00e-04, normalization = 1.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.19e-06, limit = 1.00e-04, normalization = 2.13e-03, conv = true ---[precice]  iteration: 7 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.95e-04, limit = 1.00e-04, normalization = 1.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.60e-07, limit = 1.00e-04, normalization = 2.13e-03, conv = true ---[precice]  iteration: 8 of 10, time-window: 7, time: 0.003 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 7 @ 0.003500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.02e-05, limit = 1.00e-04, normalization = 1.51e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.26e-07, limit = 1.00e-04, normalization = 2.13e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.06e+00, limit = 1.00e-04, normalization = 2.33e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.59e-02, limit = 1.00e-04, normalization = 2.99e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.20e-01, limit = 1.00e-04, normalization = 2.72e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.91e-02, limit = 1.00e-04, normalization = 2.96e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.68e+00, limit = 1.00e-04, normalization = 1.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.58e-03, limit = 1.00e-04, normalization = 2.97e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.52e-01, limit = 1.00e-04, normalization = 1.34e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.59e-04, limit = 1.00e-04, normalization = 2.97e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.65e-02, limit = 1.00e-04, normalization = 1.35e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.68e-04, limit = 1.00e-04, normalization = 2.97e-03, conv = false ---[precice]  iteration: 6 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.96e-03, limit = 1.00e-04, normalization = 1.35e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.56e-06, limit = 1.00e-04, normalization = 2.97e-03, conv = true ---[precice]  iteration: 7 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.99e-04, limit = 1.00e-04, normalization = 1.35e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.41e-06, limit = 1.00e-04, normalization = 2.97e-03, conv = true ---[precice]  iteration: 8 of 10, time-window: 8, time: 0.0035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 8 @ 0.004000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.95e-05, limit = 1.00e-04, normalization = 1.35e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.90e-07, limit = 1.00e-04, normalization = 2.97e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 9, time: 0.004 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 9 @ 0.004500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.48e+00, limit = 1.00e-04, normalization = 2.29e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.12e-02, limit = 1.00e-04, normalization = 4.11e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 9, time: 0.004 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 9 @ 0.004500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.72e-01, limit = 1.00e-04, normalization = 5.10e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.35e-02, limit = 1.00e-04, normalization = 4.08e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 9, time: 0.004 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 9 @ 0.004500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.93e-02, limit = 1.00e-04, normalization = 5.57e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.51e-04, limit = 1.00e-04, normalization = 4.07e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 9, time: 0.004 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 9 @ 0.004500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.04e-02, limit = 1.00e-04, normalization = 5.63e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.18e-04, limit = 1.00e-04, normalization = 4.07e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 9, time: 0.004 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 9 @ 0.004500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.16e-04, limit = 1.00e-04, normalization = 5.63e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.71e-05, limit = 1.00e-04, normalization = 4.07e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 9, time: 0.004 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 9 @ 0.004500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.71e-05, limit = 1.00e-04, normalization = 5.63e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.11e-07, limit = 1.00e-04, normalization = 4.07e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.21e+00, limit = 1.00e-04, normalization = 1.10e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.87e-02, limit = 1.00e-04, normalization = 5.42e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.01e-01, limit = 1.00e-04, normalization = 4.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.23e-02, limit = 1.00e-04, normalization = 5.35e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.23e-01, limit = 1.00e-04, normalization = 3.07e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.77e-03, limit = 1.00e-04, normalization = 5.38e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.12e-01, limit = 1.00e-04, normalization = 2.77e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.36e-04, limit = 1.00e-04, normalization = 5.39e-03, conv = false ---[precice]  iteration: 5 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.55e-03, limit = 1.00e-04, normalization = 2.75e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.15e-05, limit = 1.00e-04, normalization = 5.39e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.79e-04, limit = 1.00e-04, normalization = 2.75e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.96e-07, limit = 1.00e-04, normalization = 5.39e-03, conv = true ---[precice]  iteration: 7 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.07e-04, limit = 1.00e-04, normalization = 2.75e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.74e-07, limit = 1.00e-04, normalization = 5.39e-03, conv = true ---[precice]  iteration: 8 of 10, time-window: 10, time: 0.0045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 10 @ 0.005000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.81e-05, limit = 1.00e-04, normalization = 2.75e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.20e-08, limit = 1.00e-04, normalization = 5.39e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.15e+00, limit = 1.00e-04, normalization = 1.37e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.69e-02, limit = 1.00e-04, normalization = 6.94e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.24e+00, limit = 1.00e-04, normalization = 5.64e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.10e-02, limit = 1.00e-04, normalization = 6.96e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.23e+00, limit = 1.00e-04, normalization = 2.74e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.45e-04, limit = 1.00e-04, normalization = 6.91e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.50e-02, limit = 1.00e-04, normalization = 2.91e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.59e-05, limit = 1.00e-04, normalization = 6.91e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.04e-03, limit = 1.00e-04, normalization = 2.90e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.50e-06, limit = 1.00e-04, normalization = 6.91e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.62e-04, limit = 1.00e-04, normalization = 2.90e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.95e-07, limit = 1.00e-04, normalization = 6.91e-03, conv = true ---[precice]  iteration: 7 of 10, time-window: 11, time: 0.005 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 11 @ 0.005500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.89e-05, limit = 1.00e-04, normalization = 2.90e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.97e-08, limit = 1.00e-04, normalization = 6.91e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 12, time: 0.0055 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 12 @ 0.006000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.30e+00, limit = 1.00e-04, normalization = 2.17e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.47e-02, limit = 1.00e-04, normalization = 8.57e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 12, time: 0.0055 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 12 @ 0.006000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.22e-01, limit = 1.00e-04, normalization = 3.36e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.20e-03, limit = 1.00e-04, normalization = 8.56e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 12, time: 0.0055 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 12 @ 0.006000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.15e-01, limit = 1.00e-04, normalization = 3.02e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.16e-04, limit = 1.00e-04, normalization = 8.56e-03, conv = false ---[precice]  iteration: 4 of 10, time-window: 12, time: 0.0055 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 12 @ 0.006000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.22e-02, limit = 1.00e-04, normalization = 2.94e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.12e-05, limit = 1.00e-04, normalization = 8.56e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 12, time: 0.0055 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 12 @ 0.006000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.97e-04, limit = 1.00e-04, normalization = 2.94e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.68e-07, limit = 1.00e-04, normalization = 8.56e-03, conv = true ---[precice]  iteration: 6 of 10, time-window: 12, time: 0.0055 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 12 @ 0.006000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.10e-05, limit = 1.00e-04, normalization = 2.94e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.79e-07, limit = 1.00e-04, normalization = 8.56e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 13, time: 0.006 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 13 @ 0.006500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.69e+00, limit = 1.00e-04, normalization = 1.13e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.70e-02, limit = 1.00e-04, normalization = 1.02e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 13, time: 0.006 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 13 @ 0.006500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.65e-01, limit = 1.00e-04, normalization = 4.38e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.16e-03, limit = 1.00e-04, normalization = 1.02e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 13, time: 0.006 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 13 @ 0.006500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.51e-02, limit = 1.00e-04, normalization = 4.79e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.32e-04, limit = 1.00e-04, normalization = 1.02e-02, conv = false ---[precice]  iteration: 4 of 10, time-window: 13, time: 0.006 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 13 @ 0.006500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.48e-02, limit = 1.00e-04, normalization = 4.86e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.29e-05, limit = 1.00e-04, normalization = 1.02e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 13, time: 0.006 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 13 @ 0.006500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.63e-03, limit = 1.00e-04, normalization = 4.86e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.81e-07, limit = 1.00e-04, normalization = 1.02e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 13, time: 0.006 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 13 @ 0.006500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.02e-05, limit = 1.00e-04, normalization = 4.86e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.09e-09, limit = 1.00e-04, normalization = 1.02e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 14, time: 0.0065 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 14 @ 0.007000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.60e+00, limit = 1.00e-04, normalization = 6.56e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.34e-02, limit = 1.00e-04, normalization = 1.18e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 14, time: 0.0065 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 14 @ 0.007000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.24e+00, limit = 1.00e-04, normalization = 2.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.04e-03, limit = 1.00e-04, normalization = 1.19e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 14, time: 0.0065 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 14 @ 0.007000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.71e-02, limit = 1.00e-04, normalization = 2.34e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.19e-04, limit = 1.00e-04, normalization = 1.19e-02, conv = false ---[precice]  iteration: 4 of 10, time-window: 14, time: 0.0065 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 14 @ 0.007000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.05e-02, limit = 1.00e-04, normalization = 2.32e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.37e-05, limit = 1.00e-04, normalization = 1.19e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 14, time: 0.0065 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 14 @ 0.007000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.25e-03, limit = 1.00e-04, normalization = 2.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.18e-07, limit = 1.00e-04, normalization = 1.19e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 14, time: 0.0065 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 14 @ 0.007000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.66e-05, limit = 1.00e-04, normalization = 2.31e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.89e-08, limit = 1.00e-04, normalization = 1.19e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 15, time: 0.007 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 15 @ 0.007500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.33e+00, limit = 1.00e-04, normalization = 1.70e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.11e-02, limit = 1.00e-04, normalization = 1.34e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 15, time: 0.007 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 15 @ 0.007500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.39e+00, limit = 1.00e-04, normalization = 1.03e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.32e-04, limit = 1.00e-04, normalization = 1.35e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 15, time: 0.007 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 15 @ 0.007500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.02e-01, limit = 1.00e-04, normalization = 9.70e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.10e-06, limit = 1.00e-04, normalization = 1.35e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 15, time: 0.007 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 15 @ 0.007500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.74e-03, limit = 1.00e-04, normalization = 9.69e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.10e-07, limit = 1.00e-04, normalization = 1.35e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 15, time: 0.007 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 15 @ 0.007500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.06e-04, limit = 1.00e-04, normalization = 9.70e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.72e-08, limit = 1.00e-04, normalization = 1.35e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 15, time: 0.007 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 15 @ 0.007500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.75e-05, limit = 1.00e-04, normalization = 9.70e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.00e-09, limit = 1.00e-04, normalization = 1.35e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 16, time: 0.0075 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 16 @ 0.008000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.49e+00, limit = 1.00e-04, normalization = 1.40e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.24e-03, limit = 1.00e-04, normalization = 1.50e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 16, time: 0.0075 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 16 @ 0.008000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.42e-01, limit = 1.00e-04, normalization = 5.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.23e-04, limit = 1.00e-04, normalization = 1.50e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 16, time: 0.0075 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 16 @ 0.008000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.67e-03, limit = 1.00e-04, normalization = 5.21e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.11e-05, limit = 1.00e-04, normalization = 1.50e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 16, time: 0.0075 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 16 @ 0.008000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.53e-04, limit = 1.00e-04, normalization = 5.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.55e-08, limit = 1.00e-04, normalization = 1.50e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 16, time: 0.0075 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 16 @ 0.008000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.52e-06, limit = 1.00e-04, normalization = 5.20e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.22e-08, limit = 1.00e-04, normalization = 1.50e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 17, time: 0.008 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 17 @ 0.008500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.26e+01, limit = 1.00e-04, normalization = 3.88e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.60e-03, limit = 1.00e-04, normalization = 1.66e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 17, time: 0.008 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 17 @ 0.008500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.27e-01, limit = 1.00e-04, normalization = 6.88e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.48e-04, limit = 1.00e-04, normalization = 1.66e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 17, time: 0.008 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 17 @ 0.008500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.69e-01, limit = 1.00e-04, normalization = 7.46e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.98e-05, limit = 1.00e-04, normalization = 1.66e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 17, time: 0.008 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 17 @ 0.008500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.69e-03, limit = 1.00e-04, normalization = 7.50e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.14e-07, limit = 1.00e-04, normalization = 1.66e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 17, time: 0.008 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 17 @ 0.008500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.79e-04, limit = 1.00e-04, normalization = 7.51e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.82e-08, limit = 1.00e-04, normalization = 1.66e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 17, time: 0.008 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 17 @ 0.008500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.41e-05, limit = 1.00e-04, normalization = 7.51e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.48e-10, limit = 1.00e-04, normalization = 1.66e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 18, time: 0.0085 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 18 @ 0.009000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.04e-01, limit = 1.00e-04, normalization = 1.07e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.06e-03, limit = 1.00e-04, normalization = 1.81e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 18, time: 0.0085 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 18 @ 0.009000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.37e+00, limit = 1.00e-04, normalization = 2.82e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.80e-04, limit = 1.00e-04, normalization = 1.81e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 18, time: 0.0085 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 18 @ 0.009000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.25e-02, limit = 1.00e-04, normalization = 2.88e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.47e-06, limit = 1.00e-04, normalization = 1.81e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 18, time: 0.0085 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 18 @ 0.009000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.99e-04, limit = 1.00e-04, normalization = 2.88e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.15e-07, limit = 1.00e-04, normalization = 1.81e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 18, time: 0.0085 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 18 @ 0.009000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.56e-05, limit = 1.00e-04, normalization = 2.88e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.54e-09, limit = 1.00e-04, normalization = 1.81e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 19, time: 0.009 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 19 @ 0.009500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.83e+00, limit = 1.00e-04, normalization = 1.56e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.63e-03, limit = 1.00e-04, normalization = 1.96e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 19, time: 0.009 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 19 @ 0.009500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.95e-01, limit = 1.00e-04, normalization = 3.68e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.50e-04, limit = 1.00e-04, normalization = 1.96e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 19, time: 0.009 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 19 @ 0.009500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.91e-03, limit = 1.00e-04, normalization = 3.67e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.11e-06, limit = 1.00e-04, normalization = 1.96e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 19, time: 0.009 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 19 @ 0.009500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.34e-04, limit = 1.00e-04, normalization = 3.67e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.08e-07, limit = 1.00e-04, normalization = 1.96e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 19, time: 0.009 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 19 @ 0.009500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.35e-05, limit = 1.00e-04, normalization = 3.67e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.88e-09, limit = 1.00e-04, normalization = 1.96e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 20, time: 0.0095 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 20 @ 0.010000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.23e+00, limit = 1.00e-04, normalization = 5.15e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.04e-03, limit = 1.00e-04, normalization = 2.11e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 20, time: 0.0095 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 20 @ 0.010000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.56e-01, limit = 1.00e-04, normalization = 3.16e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.22e-05, limit = 1.00e-04, normalization = 2.11e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 20, time: 0.0095 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 20 @ 0.010000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.10e-02, limit = 1.00e-04, normalization = 3.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.54e-06, limit = 1.00e-04, normalization = 2.11e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 20, time: 0.0095 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 20 @ 0.010000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.99e-04, limit = 1.00e-04, normalization = 3.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.23e-08, limit = 1.00e-04, normalization = 2.11e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 20, time: 0.0095 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 20 @ 0.010000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.00e-06, limit = 1.00e-04, normalization = 3.20e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.75e-10, limit = 1.00e-04, normalization = 2.11e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 21, time: 0.01 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 21 @ 0.010500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.93e+00, limit = 1.00e-04, normalization = 5.49e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.93e-03, limit = 1.00e-04, normalization = 2.26e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 21, time: 0.01 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 21 @ 0.010500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.18e+00, limit = 1.00e-04, normalization = 2.90e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.15e-04, limit = 1.00e-04, normalization = 2.26e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 21, time: 0.01 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 21 @ 0.010500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.93e-02, limit = 1.00e-04, normalization = 2.95e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.34e-06, limit = 1.00e-04, normalization = 2.26e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 21, time: 0.01 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 21 @ 0.010500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.60e-04, limit = 1.00e-04, normalization = 2.96e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.91e-08, limit = 1.00e-04, normalization = 2.26e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 21, time: 0.01 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 21 @ 0.010500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.44e-05, limit = 1.00e-04, normalization = 2.96e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.22e-10, limit = 1.00e-04, normalization = 2.26e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 22, time: 0.0105 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 22 @ 0.011000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.94e+00, limit = 1.00e-04, normalization = 1.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.12e-03, limit = 1.00e-04, normalization = 2.41e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 22, time: 0.0105 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 22 @ 0.011000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.32e+00, limit = 1.00e-04, normalization = 7.68e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.33e-05, limit = 1.00e-04, normalization = 2.41e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 22, time: 0.0105 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 22 @ 0.011000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.67e-02, limit = 1.00e-04, normalization = 7.91e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.85e-06, limit = 1.00e-04, normalization = 2.41e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 22, time: 0.0105 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 22 @ 0.011000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.27e-03, limit = 1.00e-04, normalization = 7.92e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.57e-08, limit = 1.00e-04, normalization = 2.41e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 22, time: 0.0105 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 22 @ 0.011000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.83e-05, limit = 1.00e-04, normalization = 7.92e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.16e-10, limit = 1.00e-04, normalization = 2.41e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 23, time: 0.011 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 23 @ 0.011500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.13e-01, limit = 1.00e-04, normalization = 8.90e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.14e-03, limit = 1.00e-04, normalization = 2.55e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 23, time: 0.011 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 23 @ 0.011500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.21e-01, limit = 1.00e-04, normalization = 4.84e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.68e-05, limit = 1.00e-04, normalization = 2.55e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 23, time: 0.011 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 23 @ 0.011500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.15e-03, limit = 1.00e-04, normalization = 4.83e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.12e-07, limit = 1.00e-04, normalization = 2.55e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 23, time: 0.011 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 23 @ 0.011500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.00e-05, limit = 1.00e-04, normalization = 4.83e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.79e-09, limit = 1.00e-04, normalization = 2.55e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 24, time: 0.0115 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 24 @ 0.012000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.60e+01, limit = 1.00e-04, normalization = 1.83e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.39e-03, limit = 1.00e-04, normalization = 2.69e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 24, time: 0.0115 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 24 @ 0.012000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.09e+00, limit = 1.00e-04, normalization = 1.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.42e-05, limit = 1.00e-04, normalization = 2.69e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 24, time: 0.0115 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 24 @ 0.012000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.65e-02, limit = 1.00e-04, normalization = 1.33e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.25e-07, limit = 1.00e-04, normalization = 2.69e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 24, time: 0.0115 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 24 @ 0.012000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.43e-05, limit = 1.00e-04, normalization = 1.33e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.05e-08, limit = 1.00e-04, normalization = 2.69e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 25, time: 0.012 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 25 @ 0.012500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.23e+00, limit = 1.00e-04, normalization = 1.05e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.10e-03, limit = 1.00e-04, normalization = 2.83e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 25, time: 0.012 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 25 @ 0.012500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.48e+00, limit = 1.00e-04, normalization = 2.16e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.32e-05, limit = 1.00e-04, normalization = 2.83e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 25, time: 0.012 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 25 @ 0.012500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.48e-03, limit = 1.00e-04, normalization = 2.17e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.14e-06, limit = 1.00e-04, normalization = 2.83e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 25, time: 0.012 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 25 @ 0.012500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.43e-03, limit = 1.00e-04, normalization = 2.17e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.42e-07, limit = 1.00e-04, normalization = 2.83e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 25, time: 0.012 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 25 @ 0.012500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.34e-04, limit = 1.00e-04, normalization = 2.18e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.49e-08, limit = 1.00e-04, normalization = 2.83e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 25, time: 0.012 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 25 @ 0.012500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.68e-06, limit = 1.00e-04, normalization = 2.18e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.43e-10, limit = 1.00e-04, normalization = 2.83e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 26, time: 0.0125 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 26 @ 0.013000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.78e+00, limit = 1.00e-04, normalization = 1.21e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.41e-03, limit = 1.00e-04, normalization = 2.97e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 26, time: 0.0125 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 26 @ 0.013000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.25e-01, limit = 1.00e-04, normalization = 4.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.94e-05, limit = 1.00e-04, normalization = 2.97e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 26, time: 0.0125 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 26 @ 0.013000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.22e-03, limit = 1.00e-04, normalization = 4.18e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.26e-06, limit = 1.00e-04, normalization = 2.97e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 26, time: 0.0125 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 26 @ 0.013000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.13e-04, limit = 1.00e-04, normalization = 4.18e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.19e-07, limit = 1.00e-04, normalization = 2.97e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 26, time: 0.0125 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 26 @ 0.013000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.71e-05, limit = 1.00e-04, normalization = 4.18e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.21e-09, limit = 1.00e-04, normalization = 2.97e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 27, time: 0.013 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 27 @ 0.013500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.97e+01, limit = 1.00e-04, normalization = 2.06e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.07e-03, limit = 1.00e-04, normalization = 3.10e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 27, time: 0.013 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 27 @ 0.013500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.60e-01, limit = 1.00e-04, normalization = 1.77e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.48e-05, limit = 1.00e-04, normalization = 3.10e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 27, time: 0.013 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 27 @ 0.013500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.69e-03, limit = 1.00e-04, normalization = 1.76e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.66e-06, limit = 1.00e-04, normalization = 3.10e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 27, time: 0.013 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 27 @ 0.013500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.86e-04, limit = 1.00e-04, normalization = 1.76e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.93e-08, limit = 1.00e-04, normalization = 3.10e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 27, time: 0.013 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 27 @ 0.013500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.23e-05, limit = 1.00e-04, normalization = 1.76e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.28e-09, limit = 1.00e-04, normalization = 3.10e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 28, time: 0.0135 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 28 @ 0.014000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.66e+00, limit = 1.00e-04, normalization = 5.20e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.41e-03, limit = 1.00e-04, normalization = 3.22e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 28, time: 0.0135 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 28 @ 0.014000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.15e+00, limit = 1.00e-04, normalization = 3.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.06e-05, limit = 1.00e-04, normalization = 3.23e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 28, time: 0.0135 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 28 @ 0.014000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.20e-03, limit = 1.00e-04, normalization = 3.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.75e-06, limit = 1.00e-04, normalization = 3.23e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 28, time: 0.0135 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 28 @ 0.014000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.46e-04, limit = 1.00e-04, normalization = 3.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.34e-07, limit = 1.00e-04, normalization = 3.23e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 28, time: 0.0135 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 28 @ 0.014000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.95e-05, limit = 1.00e-04, normalization = 3.46e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.27e-09, limit = 1.00e-04, normalization = 3.23e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 29, time: 0.014 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 29 @ 0.014500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.59e+00, limit = 1.00e-04, normalization = 1.33e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.54e-03, limit = 1.00e-04, normalization = 3.34e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 29, time: 0.014 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 29 @ 0.014500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.81e-01, limit = 1.00e-04, normalization = 2.05e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.37e-05, limit = 1.00e-04, normalization = 3.35e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 29, time: 0.014 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 29 @ 0.014500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.51e-03, limit = 1.00e-04, normalization = 2.06e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.83e-07, limit = 1.00e-04, normalization = 3.35e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 29, time: 0.014 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 29 @ 0.014500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.78e-05, limit = 1.00e-04, normalization = 2.06e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.72e-08, limit = 1.00e-04, normalization = 3.35e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 30, time: 0.0145 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 30 @ 0.015000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.01e+00, limit = 1.00e-04, normalization = 4.27e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.92e-03, limit = 1.00e-04, normalization = 3.46e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 30, time: 0.0145 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 30 @ 0.015000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.01e-01, limit = 1.00e-04, normalization = 3.87e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.83e-05, limit = 1.00e-04, normalization = 3.46e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 30, time: 0.0145 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 30 @ 0.015000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.87e-03, limit = 1.00e-04, normalization = 3.88e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.50e-06, limit = 1.00e-04, normalization = 3.46e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 30, time: 0.0145 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 30 @ 0.015000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.65e-04, limit = 1.00e-04, normalization = 3.88e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.42e-07, limit = 1.00e-04, normalization = 3.46e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 30, time: 0.0145 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 30 @ 0.015000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.73e-05, limit = 1.00e-04, normalization = 3.88e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.00e-08, limit = 1.00e-04, normalization = 3.46e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 31, time: 0.015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 31 @ 0.015500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.01e+01, limit = 1.00e-04, normalization = 1.29e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.34e-03, limit = 1.00e-04, normalization = 3.57e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 31, time: 0.015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 31 @ 0.015500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.01e+00, limit = 1.00e-04, normalization = 2.44e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.74e-05, limit = 1.00e-04, normalization = 3.57e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 31, time: 0.015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 31 @ 0.015500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.77e-03, limit = 1.00e-04, normalization = 2.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.83e-07, limit = 1.00e-04, normalization = 3.57e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 31, time: 0.015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 31 @ 0.015500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.31e-04, limit = 1.00e-04, normalization = 2.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.69e-08, limit = 1.00e-04, normalization = 3.57e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 31, time: 0.015 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 31 @ 0.015500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.11e-06, limit = 1.00e-04, normalization = 2.46e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.22e-09, limit = 1.00e-04, normalization = 3.57e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 32, time: 0.0155 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 32 @ 0.016000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.39e+00, limit = 1.00e-04, normalization = 1.02e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.39e-03, limit = 1.00e-04, normalization = 3.68e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 32, time: 0.0155 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 32 @ 0.016000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.79e+00, limit = 1.00e-04, normalization = 1.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.08e-05, limit = 1.00e-04, normalization = 3.68e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 32, time: 0.0155 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 32 @ 0.016000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.80e-03, limit = 1.00e-04, normalization = 1.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.66e-07, limit = 1.00e-04, normalization = 3.68e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 32, time: 0.0155 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 32 @ 0.016000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.73e-04, limit = 1.00e-04, normalization = 1.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.93e-08, limit = 1.00e-04, normalization = 3.68e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 32, time: 0.0155 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 32 @ 0.016000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.13e-05, limit = 1.00e-04, normalization = 1.24e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.39e-10, limit = 1.00e-04, normalization = 3.68e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 33, time: 0.016 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 33 @ 0.016500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.44e+00, limit = 1.00e-04, normalization = 8.37e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.41e-03, limit = 1.00e-04, normalization = 3.78e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 33, time: 0.016 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 33 @ 0.016500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.14e-01, limit = 1.00e-04, normalization = 4.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.52e-05, limit = 1.00e-04, normalization = 3.78e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 33, time: 0.016 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 33 @ 0.016500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.83e-03, limit = 1.00e-04, normalization = 4.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.05e-06, limit = 1.00e-04, normalization = 3.78e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 33, time: 0.016 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 33 @ 0.016500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.03e-04, limit = 1.00e-04, normalization = 4.48e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.63e-08, limit = 1.00e-04, normalization = 3.78e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 33, time: 0.016 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 33 @ 0.016500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.86e-06, limit = 1.00e-04, normalization = 4.48e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.26e-10, limit = 1.00e-04, normalization = 3.78e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 34, time: 0.0165 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 34 @ 0.017000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.81e+01, limit = 1.00e-04, normalization = 1.64e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.53e-03, limit = 1.00e-04, normalization = 3.88e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 34, time: 0.0165 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 34 @ 0.017000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.06e+00, limit = 1.00e-04, normalization = 3.79e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.22e-06, limit = 1.00e-04, normalization = 3.88e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 34, time: 0.0165 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 34 @ 0.017000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.00e-03, limit = 1.00e-04, normalization = 3.79e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.27e-07, limit = 1.00e-04, normalization = 3.88e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 34, time: 0.0165 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 34 @ 0.017000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.53e-04, limit = 1.00e-04, normalization = 3.79e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.66e-08, limit = 1.00e-04, normalization = 3.88e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 34, time: 0.0165 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 34 @ 0.017000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.96e-05, limit = 1.00e-04, normalization = 3.79e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.51e-10, limit = 1.00e-04, normalization = 3.88e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 35, time: 0.017 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 35 @ 0.017500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.36e+00, limit = 1.00e-04, normalization = 5.93e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.53e-03, limit = 1.00e-04, normalization = 3.97e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 35, time: 0.017 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 35 @ 0.017500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.19e+00, limit = 1.00e-04, normalization = 3.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.42e-05, limit = 1.00e-04, normalization = 3.98e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 35, time: 0.017 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 35 @ 0.017500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.36e-03, limit = 1.00e-04, normalization = 3.03e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.11e-07, limit = 1.00e-04, normalization = 3.98e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 35, time: 0.017 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 35 @ 0.017500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.98e-04, limit = 1.00e-04, normalization = 3.03e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.17e-08, limit = 1.00e-04, normalization = 3.98e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 35, time: 0.017 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 35 @ 0.017500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.19e-05, limit = 1.00e-04, normalization = 3.03e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.67e-09, limit = 1.00e-04, normalization = 3.98e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 36, time: 0.0175 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 36 @ 0.018000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.76e+00, limit = 1.00e-04, normalization = 1.10e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.31e-03, limit = 1.00e-04, normalization = 4.07e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 36, time: 0.0175 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 36 @ 0.018000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.36e-01, limit = 1.00e-04, normalization = 2.86e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.52e-05, limit = 1.00e-04, normalization = 4.07e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 36, time: 0.0175 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 36 @ 0.018000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.09e-02, limit = 1.00e-04, normalization = 2.89e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.44e-06, limit = 1.00e-04, normalization = 4.07e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 36, time: 0.0175 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 36 @ 0.018000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.75e-04, limit = 1.00e-04, normalization = 2.89e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.14e-07, limit = 1.00e-04, normalization = 4.07e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 36, time: 0.0175 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 36 @ 0.018000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.78e-05, limit = 1.00e-04, normalization = 2.89e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.83e-09, limit = 1.00e-04, normalization = 4.07e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 37, time: 0.018 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 37 @ 0.018500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.99e+01, limit = 1.00e-04, normalization = 1.42e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.51e-03, limit = 1.00e-04, normalization = 4.15e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 37, time: 0.018 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 37 @ 0.018500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.77e-01, limit = 1.00e-04, normalization = 2.85e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.56e-05, limit = 1.00e-04, normalization = 4.15e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 37, time: 0.018 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 37 @ 0.018500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.13e-02, limit = 1.00e-04, normalization = 2.80e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.60e-06, limit = 1.00e-04, normalization = 4.15e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 37, time: 0.018 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 37 @ 0.018500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.00e-03, limit = 1.00e-04, normalization = 2.79e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.84e-08, limit = 1.00e-04, normalization = 4.15e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 37, time: 0.018 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 37 @ 0.018500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.35e-05, limit = 1.00e-04, normalization = 2.79e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.69e-09, limit = 1.00e-04, normalization = 4.15e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 38, time: 0.0185 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 38 @ 0.019000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.26e+01, limit = 1.00e-04, normalization = 1.23e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.72e-03, limit = 1.00e-04, normalization = 4.23e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 38, time: 0.0185 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 38 @ 0.019000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.01e+00, limit = 1.00e-04, normalization = 3.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.14e-06, limit = 1.00e-04, normalization = 4.23e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 38, time: 0.0185 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 38 @ 0.019000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.30e-04, limit = 1.00e-04, normalization = 3.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.00e-07, limit = 1.00e-04, normalization = 4.23e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 38, time: 0.0185 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 38 @ 0.019000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.67e-05, limit = 1.00e-04, normalization = 3.31e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.69e-08, limit = 1.00e-04, normalization = 4.23e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 39, time: 0.019 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 39 @ 0.019500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.21e+00, limit = 1.00e-04, normalization = 1.03e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.23e-03, limit = 1.00e-04, normalization = 4.31e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 39, time: 0.019 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 39 @ 0.019500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.58e+00, limit = 1.00e-04, normalization = 6.17e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.13e-05, limit = 1.00e-04, normalization = 4.31e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 39, time: 0.019 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 39 @ 0.019500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.73e-02, limit = 1.00e-04, normalization = 6.20e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.99e-07, limit = 1.00e-04, normalization = 4.31e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 39, time: 0.019 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 39 @ 0.019500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.23e-03, limit = 1.00e-04, normalization = 6.20e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.19e-08, limit = 1.00e-04, normalization = 4.31e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 39, time: 0.019 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 39 @ 0.019500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.15e-04, limit = 1.00e-04, normalization = 6.20e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.76e-09, limit = 1.00e-04, normalization = 4.31e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 39, time: 0.019 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 39 @ 0.019500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.81e-06, limit = 1.00e-04, normalization = 6.20e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.15e-11, limit = 1.00e-04, normalization = 4.31e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 40, time: 0.0195 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 40 @ 0.020000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.41e+00, limit = 1.00e-04, normalization = 4.63e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.87e-03, limit = 1.00e-04, normalization = 4.38e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 40, time: 0.0195 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 40 @ 0.020000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.94e-01, limit = 1.00e-04, normalization = 4.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.16e-05, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 40, time: 0.0195 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 40 @ 0.020000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.83e-03, limit = 1.00e-04, normalization = 4.07e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.48e-06, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 40, time: 0.0195 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 40 @ 0.020000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.82e-04, limit = 1.00e-04, normalization = 4.07e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.19e-09, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 40, time: 0.0195 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 40 @ 0.020000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.42e-07, limit = 1.00e-04, normalization = 4.07e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.53e-10, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 41, time: 0.02 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 41 @ 0.020500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.67e+01, limit = 1.00e-04, normalization = 2.58e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.60e-03, limit = 1.00e-04, normalization = 4.44e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 41, time: 0.02 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 41 @ 0.020500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.98e-01, limit = 1.00e-04, normalization = 1.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.44e-05, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 41, time: 0.02 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 41 @ 0.020500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.65e-02, limit = 1.00e-04, normalization = 1.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.21e-07, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 41, time: 0.02 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 41 @ 0.020500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.78e-04, limit = 1.00e-04, normalization = 1.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.59e-08, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 41, time: 0.02 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 41 @ 0.020500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.78e-05, limit = 1.00e-04, normalization = 1.47e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.27e-10, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 42, time: 0.0205 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 42 @ 0.021000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.19e+00, limit = 1.00e-04, normalization = 6.63e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.81e-03, limit = 1.00e-04, normalization = 4.50e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 42, time: 0.0205 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 42 @ 0.021000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.27e+00, limit = 1.00e-04, normalization = 2.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.36e-05, limit = 1.00e-04, normalization = 4.51e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 42, time: 0.0205 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 42 @ 0.021000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.74e-02, limit = 1.00e-04, normalization = 2.49e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.09e-06, limit = 1.00e-04, normalization = 4.51e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 42, time: 0.0205 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 42 @ 0.021000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.22e-03, limit = 1.00e-04, normalization = 2.49e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.48e-07, limit = 1.00e-04, normalization = 4.51e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 42, time: 0.0205 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 42 @ 0.021000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.02e-04, limit = 1.00e-04, normalization = 2.49e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.07e-08, limit = 1.00e-04, normalization = 4.51e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 42, time: 0.0205 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 42 @ 0.021000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.62e-06, limit = 1.00e-04, normalization = 2.49e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.46e-10, limit = 1.00e-04, normalization = 4.51e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 43, time: 0.021 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 43 @ 0.021500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.71e+00, limit = 1.00e-04, normalization = 9.17e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.79e-03, limit = 1.00e-04, normalization = 4.56e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 43, time: 0.021 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 43 @ 0.021500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.76e-01, limit = 1.00e-04, normalization = 3.87e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.24e-05, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 43, time: 0.021 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 43 @ 0.021500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.60e-03, limit = 1.00e-04, normalization = 3.84e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.20e-06, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 43, time: 0.021 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 43 @ 0.021500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.18e-04, limit = 1.00e-04, normalization = 3.84e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.19e-08, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 43, time: 0.021 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 43 @ 0.021500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.13e-05, limit = 1.00e-04, normalization = 3.84e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.88e-09, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 44, time: 0.0215 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 44 @ 0.022000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.60e+01, limit = 1.00e-04, normalization = 1.52e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.43e-03, limit = 1.00e-04, normalization = 4.61e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 44, time: 0.0215 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 44 @ 0.022000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.09e+00, limit = 1.00e-04, normalization = 1.37e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.26e-05, limit = 1.00e-04, normalization = 4.61e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 44, time: 0.0215 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 44 @ 0.022000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.36e-02, limit = 1.00e-04, normalization = 1.40e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.50e-06, limit = 1.00e-04, normalization = 4.61e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 44, time: 0.0215 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 44 @ 0.022000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.14e-03, limit = 1.00e-04, normalization = 1.40e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.31e-08, limit = 1.00e-04, normalization = 4.61e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 44, time: 0.0215 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 44 @ 0.022000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.00e-05, limit = 1.00e-04, normalization = 1.40e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.50e-09, limit = 1.00e-04, normalization = 4.61e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 45, time: 0.022 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 45 @ 0.022500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.82e+00, limit = 1.00e-04, normalization = 3.12e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.53e-03, limit = 1.00e-04, normalization = 4.65e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 45, time: 0.022 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 45 @ 0.022500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.09e+00, limit = 1.00e-04, normalization = 3.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.95e-05, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 45, time: 0.022 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 45 @ 0.022500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.58e-03, limit = 1.00e-04, normalization = 3.21e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.22e-06, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 45, time: 0.022 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 45 @ 0.022500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.05e-03, limit = 1.00e-04, normalization = 3.22e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.62e-07, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 45, time: 0.022 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 45 @ 0.022500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.40e-05, limit = 1.00e-04, normalization = 3.22e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.14e-09, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 46, time: 0.0225 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 46 @ 0.023000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.14e+00, limit = 1.00e-04, normalization = 1.02e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.82e-03, limit = 1.00e-04, normalization = 4.68e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 46, time: 0.0225 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 46 @ 0.023000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.57e-01, limit = 1.00e-04, normalization = 1.49e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.99e-06, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 46, time: 0.0225 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 46 @ 0.023000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.84e-03, limit = 1.00e-04, normalization = 1.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.68e-07, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 46, time: 0.0225 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 46 @ 0.023000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.83e-04, limit = 1.00e-04, normalization = 1.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.22e-09, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 46, time: 0.0225 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 46 @ 0.023000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.89e-06, limit = 1.00e-04, normalization = 1.50e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.65e-10, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 47, time: 0.023 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 47 @ 0.023500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.89e+00, limit = 1.00e-04, normalization = 2.64e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.09e-03, limit = 1.00e-04, normalization = 4.71e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 47, time: 0.023 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 47 @ 0.023500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.34e-01, limit = 1.00e-04, normalization = 3.58e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.59e-06, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 47, time: 0.023 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 47 @ 0.023500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.80e-03, limit = 1.00e-04, normalization = 3.59e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.72e-07, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 47, time: 0.023 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 47 @ 0.023500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.55e-04, limit = 1.00e-04, normalization = 3.59e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.57e-08, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 47, time: 0.023 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 47 @ 0.023500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.94e-05, limit = 1.00e-04, normalization = 3.59e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.28e-09, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 48, time: 0.0235 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 48 @ 0.024000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.20e+01, limit = 1.00e-04, normalization = 1.70e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.61e-03, limit = 1.00e-04, normalization = 4.74e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 48, time: 0.0235 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 48 @ 0.024000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.44e-01, limit = 1.00e-04, normalization = 2.48e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.17e-05, limit = 1.00e-04, normalization = 4.74e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 48, time: 0.0235 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 48 @ 0.024000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.25e-02, limit = 1.00e-04, normalization = 2.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.49e-06, limit = 1.00e-04, normalization = 4.74e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 48, time: 0.0235 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 48 @ 0.024000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.43e-03, limit = 1.00e-04, normalization = 2.52e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.43e-07, limit = 1.00e-04, normalization = 4.74e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 48, time: 0.0235 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 48 @ 0.024000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.06e-04, limit = 1.00e-04, normalization = 2.52e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.37e-09, limit = 1.00e-04, normalization = 4.74e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 48, time: 0.0235 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 48 @ 0.024000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.21e-06, limit = 1.00e-04, normalization = 2.52e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.78e-11, limit = 1.00e-04, normalization = 4.74e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 49, time: 0.024 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 49 @ 0.024500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.95e+00, limit = 1.00e-04, normalization = 8.51e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.21e-03, limit = 1.00e-04, normalization = 4.76e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 49, time: 0.024 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 49 @ 0.024500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.76e+00, limit = 1.00e-04, normalization = 1.11e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.97e-06, limit = 1.00e-04, normalization = 4.76e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 49, time: 0.024 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 49 @ 0.024500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.91e-03, limit = 1.00e-04, normalization = 1.11e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.62e-07, limit = 1.00e-04, normalization = 4.76e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 49, time: 0.024 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 49 @ 0.024500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.46e-05, limit = 1.00e-04, normalization = 1.11e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.56e-09, limit = 1.00e-04, normalization = 4.76e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 50, time: 0.0245 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 50 @ 0.025000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.72e+00, limit = 1.00e-04, normalization = 6.37e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.85e-03, limit = 1.00e-04, normalization = 4.78e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 50, time: 0.0245 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 50 @ 0.025000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.38e-01, limit = 1.00e-04, normalization = 3.87e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.67e-05, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 50, time: 0.0245 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 50 @ 0.025000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.66e-03, limit = 1.00e-04, normalization = 3.86e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.33e-07, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 50, time: 0.0245 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 50 @ 0.025000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.17e-04, limit = 1.00e-04, normalization = 3.86e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.60e-08, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 50, time: 0.0245 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 50 @ 0.025000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.41e-06, limit = 1.00e-04, normalization = 3.86e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.05e-09, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 51, time: 0.025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 51 @ 0.025500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.65e+01, limit = 1.00e-04, normalization = 2.48e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.71e-03, limit = 1.00e-04, normalization = 4.79e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 51, time: 0.025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 51 @ 0.025500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.31e+00, limit = 1.00e-04, normalization = 4.80e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.97e-05, limit = 1.00e-04, normalization = 4.79e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 51, time: 0.025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 51 @ 0.025500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.16e-01, limit = 1.00e-04, normalization = 4.77e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.99e-06, limit = 1.00e-04, normalization = 4.79e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 51, time: 0.025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 51 @ 0.025500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.77e-03, limit = 1.00e-04, normalization = 4.77e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.00e-08, limit = 1.00e-04, normalization = 4.79e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 51, time: 0.025 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 51 @ 0.025500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.35e-05, limit = 1.00e-04, normalization = 4.77e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.52e-09, limit = 1.00e-04, normalization = 4.79e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 52, time: 0.0255 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 52 @ 0.026000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.80e+00, limit = 1.00e-04, normalization = 3.63e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.47e-03, limit = 1.00e-04, normalization = 4.80e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 52, time: 0.0255 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 52 @ 0.026000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.11e+00, limit = 1.00e-04, normalization = 3.21e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.82e-06, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 52, time: 0.0255 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 52 @ 0.026000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.94e-03, limit = 1.00e-04, normalization = 3.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.75e-07, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 52, time: 0.0255 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 52 @ 0.026000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.97e-05, limit = 1.00e-04, normalization = 3.20e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.15e-08, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 53, time: 0.026 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 53 @ 0.026500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.56e+00, limit = 1.00e-04, normalization = 8.99e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.40e-03, limit = 1.00e-04, normalization = 4.80e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 53, time: 0.026 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 53 @ 0.026500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.94e-01, limit = 1.00e-04, normalization = 2.67e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.54e-05, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 53, time: 0.026 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 53 @ 0.026500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.53e-03, limit = 1.00e-04, normalization = 2.70e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.44e-06, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 53, time: 0.026 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 53 @ 0.026500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.81e-04, limit = 1.00e-04, normalization = 2.70e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.32e-07, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 53, time: 0.026 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 53 @ 0.026500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.54e-05, limit = 1.00e-04, normalization = 2.70e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.43e-09, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 54, time: 0.0265 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 54 @ 0.027000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.32e+01, limit = 1.00e-04, normalization = 1.19e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.49e-03, limit = 1.00e-04, normalization = 4.79e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 54, time: 0.0265 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 54 @ 0.027000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.03e+00, limit = 1.00e-04, normalization = 2.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.61e-05, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 54, time: 0.0265 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 54 @ 0.027000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.38e-02, limit = 1.00e-04, normalization = 2.41e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.22e-06, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 54, time: 0.0265 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 54 @ 0.027000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.01e-03, limit = 1.00e-04, normalization = 2.40e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.35e-08, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 54, time: 0.0265 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 54 @ 0.027000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.96e-05, limit = 1.00e-04, normalization = 2.40e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.22e-09, limit = 1.00e-04, normalization = 4.80e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 55, time: 0.027 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 55 @ 0.027500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.20e+01, limit = 1.00e-04, normalization = 1.10e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.56e-03, limit = 1.00e-04, normalization = 4.78e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 55, time: 0.027 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 55 @ 0.027500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.01e+00, limit = 1.00e-04, normalization = 2.95e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.47e-06, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 55, time: 0.027 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 55 @ 0.027500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.40e-04, limit = 1.00e-04, normalization = 2.94e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.01e-07, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 55, time: 0.027 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 55 @ 0.027500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.42e-04, limit = 1.00e-04, normalization = 2.94e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.41e-08, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 55, time: 0.027 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 55 @ 0.027500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.69e-06, limit = 1.00e-04, normalization = 2.94e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.26e-10, limit = 1.00e-04, normalization = 4.78e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 56, time: 0.0275 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 56 @ 0.028000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.25e+00, limit = 1.00e-04, normalization = 9.02e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.14e-03, limit = 1.00e-04, normalization = 4.77e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 56, time: 0.0275 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 56 @ 0.028000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.94e+00, limit = 1.00e-04, normalization = 5.94e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.02e-05, limit = 1.00e-04, normalization = 4.77e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 56, time: 0.0275 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 56 @ 0.028000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.01e-02, limit = 1.00e-04, normalization = 5.96e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.86e-06, limit = 1.00e-04, normalization = 4.77e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 56, time: 0.0275 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 56 @ 0.028000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.40e-03, limit = 1.00e-04, normalization = 5.96e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.84e-08, limit = 1.00e-04, normalization = 4.77e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 56, time: 0.0275 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 56 @ 0.028000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.57e-04, limit = 1.00e-04, normalization = 5.96e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.15e-09, limit = 1.00e-04, normalization = 4.77e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 56, time: 0.0275 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 56 @ 0.028000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.42e-06, limit = 1.00e-04, normalization = 5.96e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.16e-10, limit = 1.00e-04, normalization = 4.77e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 57, time: 0.028 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 57 @ 0.028500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.83e+00, limit = 1.00e-04, normalization = 4.61e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.47e-03, limit = 1.00e-04, normalization = 4.74e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 57, time: 0.028 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 57 @ 0.028500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.91e-01, limit = 1.00e-04, normalization = 3.96e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.23e-05, limit = 1.00e-04, normalization = 4.75e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 57, time: 0.028 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 57 @ 0.028500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.13e-03, limit = 1.00e-04, normalization = 3.99e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.13e-06, limit = 1.00e-04, normalization = 4.75e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 57, time: 0.028 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 57 @ 0.028500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.91e-04, limit = 1.00e-04, normalization = 3.99e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.42e-08, limit = 1.00e-04, normalization = 4.75e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 57, time: 0.028 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 57 @ 0.028500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.27e-06, limit = 1.00e-04, normalization = 3.99e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.66e-09, limit = 1.00e-04, normalization = 4.75e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 58, time: 0.0285 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 58 @ 0.029000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.66e+01, limit = 1.00e-04, normalization = 2.55e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.05e-03, limit = 1.00e-04, normalization = 4.72e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 58, time: 0.0285 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 58 @ 0.029000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.75e-01, limit = 1.00e-04, normalization = 1.53e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.14e-05, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 58, time: 0.0285 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 58 @ 0.029000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.23e-03, limit = 1.00e-04, normalization = 1.54e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.90e-07, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 58, time: 0.0285 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 58 @ 0.029000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.71e-04, limit = 1.00e-04, normalization = 1.54e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.83e-08, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 58, time: 0.0285 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 58 @ 0.029000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.21e-05, limit = 1.00e-04, normalization = 1.54e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.39e-10, limit = 1.00e-04, normalization = 4.72e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 59, time: 0.029 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 59 @ 0.029500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.33e+00, limit = 1.00e-04, normalization = 6.50e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.15e-03, limit = 1.00e-04, normalization = 4.68e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 59, time: 0.029 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 59 @ 0.029500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.30e+00, limit = 1.00e-04, normalization = 2.14e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.04e-05, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 59, time: 0.029 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 59 @ 0.029500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.29e-02, limit = 1.00e-04, normalization = 2.16e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.80e-06, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 59, time: 0.029 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 59 @ 0.029500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.89e-03, limit = 1.00e-04, normalization = 2.17e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.51e-07, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 59, time: 0.029 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 59 @ 0.029500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.70e-05, limit = 1.00e-04, normalization = 2.17e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.58e-09, limit = 1.00e-04, normalization = 4.68e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 60, time: 0.0295 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 60 @ 0.030000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.72e+00, limit = 1.00e-04, normalization = 7.93e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.96e-03, limit = 1.00e-04, normalization = 4.65e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 60, time: 0.0295 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 60 @ 0.030000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.61e-01, limit = 1.00e-04, normalization = 3.22e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.63e-05, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 60, time: 0.0295 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 60 @ 0.030000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.71e-03, limit = 1.00e-04, normalization = 3.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.51e-07, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 60, time: 0.0295 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 60 @ 0.030000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.30e-04, limit = 1.00e-04, normalization = 3.24e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.72e-08, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 60, time: 0.0295 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 60 @ 0.030000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.79e-06, limit = 1.00e-04, normalization = 3.24e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.76e-09, limit = 1.00e-04, normalization = 4.65e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 61, time: 0.03 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 61 @ 0.030500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.53e+01, limit = 1.00e-04, normalization = 1.33e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.55e-03, limit = 1.00e-04, normalization = 4.60e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 61, time: 0.03 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 61 @ 0.030500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.08e+00, limit = 1.00e-04, normalization = 1.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.65e-05, limit = 1.00e-04, normalization = 4.60e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 61, time: 0.03 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 61 @ 0.030500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.19e-02, limit = 1.00e-04, normalization = 1.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.66e-07, limit = 1.00e-04, normalization = 4.60e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 61, time: 0.03 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 61 @ 0.030500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.56e-04, limit = 1.00e-04, normalization = 1.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.06e-08, limit = 1.00e-04, normalization = 4.60e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 61, time: 0.03 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 61 @ 0.030500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.51e-05, limit = 1.00e-04, normalization = 1.46e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.47e-10, limit = 1.00e-04, normalization = 4.60e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 62, time: 0.0305 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 62 @ 0.031000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.39e+00, limit = 1.00e-04, normalization = 1.44e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.98e-03, limit = 1.00e-04, normalization = 4.55e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 62, time: 0.0305 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 62 @ 0.031000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.04e+00, limit = 1.00e-04, normalization = 3.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.07e-05, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 62, time: 0.0305 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 62 @ 0.031000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.00e-03, limit = 1.00e-04, normalization = 3.33e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.02e-06, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 62, time: 0.0305 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 62 @ 0.031000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.54e-04, limit = 1.00e-04, normalization = 3.33e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.03e-08, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 62, time: 0.0305 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 62 @ 0.031000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.66e-05, limit = 1.00e-04, normalization = 3.33e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.69e-10, limit = 1.00e-04, normalization = 4.56e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 63, time: 0.031 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 63 @ 0.031500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.71e+00, limit = 1.00e-04, normalization = 8.98e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.39e-03, limit = 1.00e-04, normalization = 4.50e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 63, time: 0.031 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 63 @ 0.031500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.56e-01, limit = 1.00e-04, normalization = 1.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.00e-05, limit = 1.00e-04, normalization = 4.50e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 63, time: 0.031 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 63 @ 0.031500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.17e-03, limit = 1.00e-04, normalization = 1.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.34e-06, limit = 1.00e-04, normalization = 4.50e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 63, time: 0.031 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 63 @ 0.031500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.04e-04, limit = 1.00e-04, normalization = 1.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.00e-08, limit = 1.00e-04, normalization = 4.50e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 63, time: 0.031 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 63 @ 0.031500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.81e-05, limit = 1.00e-04, normalization = 1.47e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.15e-09, limit = 1.00e-04, normalization = 4.50e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 64, time: 0.0315 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 64 @ 0.032000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.03e+01, limit = 1.00e-04, normalization = 1.34e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.01e-03, limit = 1.00e-04, normalization = 4.44e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 64, time: 0.0315 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 64 @ 0.032000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.68e-01, limit = 1.00e-04, normalization = 3.10e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.95e-06, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 64, time: 0.0315 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 64 @ 0.032000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.39e-04, limit = 1.00e-04, normalization = 3.10e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.66e-07, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 64, time: 0.0315 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 64 @ 0.032000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.83e-05, limit = 1.00e-04, normalization = 3.10e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.49e-09, limit = 1.00e-04, normalization = 4.45e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 65, time: 0.032 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 65 @ 0.032500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.41e+01, limit = 1.00e-04, normalization = 2.35e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.92e-03, limit = 1.00e-04, normalization = 4.38e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 65, time: 0.032 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 65 @ 0.032500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.09e-01, limit = 1.00e-04, normalization = 2.18e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.34e-05, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 65, time: 0.032 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 65 @ 0.032500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.30e-03, limit = 1.00e-04, normalization = 2.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.96e-06, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 65, time: 0.032 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 65 @ 0.032500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.68e-04, limit = 1.00e-04, normalization = 2.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.46e-07, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 65, time: 0.032 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 65 @ 0.032500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.67e-05, limit = 1.00e-04, normalization = 2.20e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.05e-09, limit = 1.00e-04, normalization = 4.38e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 66, time: 0.0325 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 66 @ 0.033000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.34e+00, limit = 1.00e-04, normalization = 6.59e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.02e-03, limit = 1.00e-04, normalization = 4.32e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 66, time: 0.0325 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 66 @ 0.033000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.44e+00, limit = 1.00e-04, normalization = 1.48e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.63e-05, limit = 1.00e-04, normalization = 4.32e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 66, time: 0.0325 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 66 @ 0.033000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.09e-02, limit = 1.00e-04, normalization = 1.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.65e-07, limit = 1.00e-04, normalization = 4.32e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 66, time: 0.0325 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 66 @ 0.033000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.59e-04, limit = 1.00e-04, normalization = 1.47e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.69e-08, limit = 1.00e-04, normalization = 4.32e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 66, time: 0.0325 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 66 @ 0.033000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.61e-06, limit = 1.00e-04, normalization = 1.47e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.72e-10, limit = 1.00e-04, normalization = 4.32e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 67, time: 0.033 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 67 @ 0.033500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.50e+00, limit = 1.00e-04, normalization = 5.83e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.68e-03, limit = 1.00e-04, normalization = 4.25e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 67, time: 0.033 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 67 @ 0.033500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.55e-01, limit = 1.00e-04, normalization = 3.80e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.43e-05, limit = 1.00e-04, normalization = 4.25e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 67, time: 0.033 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 67 @ 0.033500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.40e-03, limit = 1.00e-04, normalization = 3.83e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.10e-06, limit = 1.00e-04, normalization = 4.25e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 67, time: 0.033 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 67 @ 0.033500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.06e-04, limit = 1.00e-04, normalization = 3.84e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.52e-08, limit = 1.00e-04, normalization = 4.25e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 67, time: 0.033 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 67 @ 0.033500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.54e-05, limit = 1.00e-04, normalization = 3.84e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.96e-10, limit = 1.00e-04, normalization = 4.25e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 68, time: 0.0335 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 68 @ 0.034000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.45e+01, limit = 1.00e-04, normalization = 2.83e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.58e-03, limit = 1.00e-04, normalization = 4.17e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 68, time: 0.0335 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 68 @ 0.034000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.15e+00, limit = 1.00e-04, normalization = 6.29e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.29e-05, limit = 1.00e-04, normalization = 4.17e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 68, time: 0.0335 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 68 @ 0.034000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.82e-02, limit = 1.00e-04, normalization = 6.46e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.45e-06, limit = 1.00e-04, normalization = 4.17e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 68, time: 0.0335 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 68 @ 0.034000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.01e-02, limit = 1.00e-04, normalization = 6.48e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.25e-08, limit = 1.00e-04, normalization = 4.17e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 68, time: 0.0335 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 68 @ 0.034000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.26e-05, limit = 1.00e-04, normalization = 6.48e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.39e-09, limit = 1.00e-04, normalization = 4.17e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 69, time: 0.034 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 69 @ 0.034500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.26e+00, limit = 1.00e-04, normalization = 4.02e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.05e-03, limit = 1.00e-04, normalization = 4.09e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 69, time: 0.034 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 69 @ 0.034500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.15e+00, limit = 1.00e-04, normalization = 2.73e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.92e-05, limit = 1.00e-04, normalization = 4.09e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 69, time: 0.034 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 69 @ 0.034500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.24e-03, limit = 1.00e-04, normalization = 2.75e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.33e-06, limit = 1.00e-04, normalization = 4.09e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 69, time: 0.034 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 69 @ 0.034500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.56e-04, limit = 1.00e-04, normalization = 2.75e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.05e-07, limit = 1.00e-04, normalization = 4.09e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 69, time: 0.034 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 69 @ 0.034500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.11e-05, limit = 1.00e-04, normalization = 2.75e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.35e-09, limit = 1.00e-04, normalization = 4.09e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 70, time: 0.0345 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 70 @ 0.035000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.33e+00, limit = 1.00e-04, normalization = 8.24e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.69e-03, limit = 1.00e-04, normalization = 4.00e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 70, time: 0.0345 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 70 @ 0.035000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.79e-01, limit = 1.00e-04, normalization = 2.32e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.31e-05, limit = 1.00e-04, normalization = 4.00e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 70, time: 0.0345 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 70 @ 0.035000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.31e-02, limit = 1.00e-04, normalization = 2.29e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.30e-06, limit = 1.00e-04, normalization = 4.00e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 70, time: 0.0345 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 70 @ 0.035000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.25e-04, limit = 1.00e-04, normalization = 2.29e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.84e-08, limit = 1.00e-04, normalization = 4.00e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 70, time: 0.0345 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 70 @ 0.035000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.07e-05, limit = 1.00e-04, normalization = 2.29e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.00e-09, limit = 1.00e-04, normalization = 4.00e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 71, time: 0.035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 71 @ 0.035500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.77e+01, limit = 1.00e-04, normalization = 8.39e+02, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.57e-03, limit = 1.00e-04, normalization = 3.91e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 71, time: 0.035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 71 @ 0.035500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.01e+00, limit = 1.00e-04, normalization = 2.54e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.89e-05, limit = 1.00e-04, normalization = 3.91e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 71, time: 0.035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 71 @ 0.035500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.57e-03, limit = 1.00e-04, normalization = 2.52e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.21e-06, limit = 1.00e-04, normalization = 3.91e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 71, time: 0.035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 71 @ 0.035500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.06e-04, limit = 1.00e-04, normalization = 2.52e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.13e-07, limit = 1.00e-04, normalization = 3.91e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 71, time: 0.035 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 71 @ 0.035500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.18e-05, limit = 1.00e-04, normalization = 2.52e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.79e-09, limit = 1.00e-04, normalization = 3.91e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 72, time: 0.0355 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 72 @ 0.036000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.26e+01, limit = 1.00e-04, normalization = 1.16e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.44e-03, limit = 1.00e-04, normalization = 3.81e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 72, time: 0.0355 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 72 @ 0.036000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.69e-01, limit = 1.00e-04, normalization = 3.05e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.33e-05, limit = 1.00e-04, normalization = 3.82e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 72, time: 0.0355 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 72 @ 0.036000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.78e-03, limit = 1.00e-04, normalization = 3.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.75e-07, limit = 1.00e-04, normalization = 3.82e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 72, time: 0.0355 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 72 @ 0.036000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.12e-04, limit = 1.00e-04, normalization = 3.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.40e-08, limit = 1.00e-04, normalization = 3.82e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 72, time: 0.0355 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 72 @ 0.036000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.90e-05, limit = 1.00e-04, normalization = 3.04e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.56e-09, limit = 1.00e-04, normalization = 3.82e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 73, time: 0.036 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 73 @ 0.036500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.75e+00, limit = 1.00e-04, normalization = 8.08e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.63e-03, limit = 1.00e-04, normalization = 3.71e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 73, time: 0.036 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 73 @ 0.036500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.93e+00, limit = 1.00e-04, normalization = 3.97e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.33e-05, limit = 1.00e-04, normalization = 3.72e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 73, time: 0.036 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 73 @ 0.036500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.63e-02, limit = 1.00e-04, normalization = 3.95e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.16e-06, limit = 1.00e-04, normalization = 3.72e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 73, time: 0.036 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 73 @ 0.036500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.62e-03, limit = 1.00e-04, normalization = 3.95e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.14e-08, limit = 1.00e-04, normalization = 3.72e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 73, time: 0.036 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 73 @ 0.036500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.87e-05, limit = 1.00e-04, normalization = 3.95e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.15e-10, limit = 1.00e-04, normalization = 3.72e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 74, time: 0.0365 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 74 @ 0.037000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.34e+00, limit = 1.00e-04, normalization = 3.10e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.32e-03, limit = 1.00e-04, normalization = 3.61e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 74, time: 0.0365 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 74 @ 0.037000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.11e-01, limit = 1.00e-04, normalization = 3.37e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.12e-05, limit = 1.00e-04, normalization = 3.61e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 74, time: 0.0365 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 74 @ 0.037000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.01e-03, limit = 1.00e-04, normalization = 3.38e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.34e-06, limit = 1.00e-04, normalization = 3.61e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 74, time: 0.0365 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 74 @ 0.037000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.44e-04, limit = 1.00e-04, normalization = 3.39e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.72e-08, limit = 1.00e-04, normalization = 3.61e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 74, time: 0.0365 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 74 @ 0.037000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.31e-06, limit = 1.00e-04, normalization = 3.39e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.40e-10, limit = 1.00e-04, normalization = 3.61e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 75, time: 0.037 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 75 @ 0.037500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.32e+01, limit = 1.00e-04, normalization = 2.78e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.69e-03, limit = 1.00e-04, normalization = 3.50e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 75, time: 0.037 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 75 @ 0.037500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.81e-01, limit = 1.00e-04, normalization = 1.10e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.48e-05, limit = 1.00e-04, normalization = 3.50e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 75, time: 0.037 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 75 @ 0.037500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.59e-02, limit = 1.00e-04, normalization = 1.11e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.33e-06, limit = 1.00e-04, normalization = 3.50e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 75, time: 0.037 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 75 @ 0.037500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.65e-03, limit = 1.00e-04, normalization = 1.11e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.44e-07, limit = 1.00e-04, normalization = 3.50e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 75, time: 0.037 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 75 @ 0.037500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.08e-04, limit = 1.00e-04, normalization = 1.11e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.76e-09, limit = 1.00e-04, normalization = 3.50e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 75, time: 0.037 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 75 @ 0.037500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.12e-06, limit = 1.00e-04, normalization = 1.11e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.73e-11, limit = 1.00e-04, normalization = 3.50e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 76, time: 0.0375 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 76 @ 0.038000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.36e+00, limit = 1.00e-04, normalization = 4.65e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.12e-03, limit = 1.00e-04, normalization = 3.39e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 76, time: 0.0375 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 76 @ 0.038000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.19e+00, limit = 1.00e-04, normalization = 2.36e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.92e-05, limit = 1.00e-04, normalization = 3.39e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 76, time: 0.0375 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 76 @ 0.038000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.34e-03, limit = 1.00e-04, normalization = 2.38e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.97e-07, limit = 1.00e-04, normalization = 3.39e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 76, time: 0.0375 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 76 @ 0.038000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.11e-04, limit = 1.00e-04, normalization = 2.38e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.51e-08, limit = 1.00e-04, normalization = 3.39e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 76, time: 0.0375 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 76 @ 0.038000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.85e-06, limit = 1.00e-04, normalization = 2.38e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.49e-09, limit = 1.00e-04, normalization = 3.39e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 77, time: 0.038 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 77 @ 0.038500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.40e+00, limit = 1.00e-04, normalization = 6.98e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.28e-03, limit = 1.00e-04, normalization = 3.28e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 77, time: 0.038 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 77 @ 0.038500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.86e-01, limit = 1.00e-04, normalization = 3.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.17e-05, limit = 1.00e-04, normalization = 3.28e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 77, time: 0.038 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 77 @ 0.038500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.86e-03, limit = 1.00e-04, normalization = 3.21e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.54e-06, limit = 1.00e-04, normalization = 3.28e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 77, time: 0.038 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 77 @ 0.038500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.59e-04, limit = 1.00e-04, normalization = 3.21e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.08e-08, limit = 1.00e-04, normalization = 3.28e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 77, time: 0.038 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 77 @ 0.038500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.62e-06, limit = 1.00e-04, normalization = 3.21e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.24e-09, limit = 1.00e-04, normalization = 3.28e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 78, time: 0.0385 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 78 @ 0.039000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.38e+01, limit = 1.00e-04, normalization = 2.51e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.23e-03, limit = 1.00e-04, normalization = 3.16e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 78, time: 0.0385 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 78 @ 0.039000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.23e+00, limit = 1.00e-04, normalization = 1.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.94e-06, limit = 1.00e-04, normalization = 3.16e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 78, time: 0.0385 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 78 @ 0.039000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.13e-03, limit = 1.00e-04, normalization = 1.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.24e-06, limit = 1.00e-04, normalization = 3.16e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 78, time: 0.0385 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 78 @ 0.039000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.66e-04, limit = 1.00e-04, normalization = 1.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.65e-07, limit = 1.00e-04, normalization = 3.16e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 78, time: 0.0385 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 78 @ 0.039000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.23e-04, limit = 1.00e-04, normalization = 1.04e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.28e-09, limit = 1.00e-04, normalization = 3.16e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 78, time: 0.0385 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 78 @ 0.039000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.96e-06, limit = 1.00e-04, normalization = 1.04e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.02e-10, limit = 1.00e-04, normalization = 3.16e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 79, time: 0.039 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 79 @ 0.039500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.59e+00, limit = 1.00e-04, normalization = 1.28e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.17e-03, limit = 1.00e-04, normalization = 3.04e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 79, time: 0.039 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 79 @ 0.039500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.04e+00, limit = 1.00e-04, normalization = 2.85e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.42e-05, limit = 1.00e-04, normalization = 3.04e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 79, time: 0.039 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 79 @ 0.039500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.03e-02, limit = 1.00e-04, normalization = 2.87e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.81e-06, limit = 1.00e-04, normalization = 3.04e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 79, time: 0.039 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 79 @ 0.039500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.34e-04, limit = 1.00e-04, normalization = 2.88e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.47e-07, limit = 1.00e-04, normalization = 3.04e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 79, time: 0.039 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 79 @ 0.039500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.57e-05, limit = 1.00e-04, normalization = 2.88e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.19e-09, limit = 1.00e-04, normalization = 3.04e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 80, time: 0.0395 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 80 @ 0.040000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.90e+00, limit = 1.00e-04, normalization = 7.37e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.79e-03, limit = 1.00e-04, normalization = 2.92e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 80, time: 0.0395 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 80 @ 0.040000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.70e-01, limit = 1.00e-04, normalization = 9.61e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.80e-05, limit = 1.00e-04, normalization = 2.92e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 80, time: 0.0395 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 80 @ 0.040000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.18e-02, limit = 1.00e-04, normalization = 9.88e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.43e-06, limit = 1.00e-04, normalization = 2.92e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 80, time: 0.0395 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 80 @ 0.040000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.17e-03, limit = 1.00e-04, normalization = 9.89e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.46e-07, limit = 1.00e-04, normalization = 2.92e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 80, time: 0.0395 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 80 @ 0.040000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.46e-04, limit = 1.00e-04, normalization = 9.90e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.04e-09, limit = 1.00e-04, normalization = 2.92e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 80, time: 0.0395 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 80 @ 0.040000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.98e-06, limit = 1.00e-04, normalization = 9.90e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.04e-10, limit = 1.00e-04, normalization = 2.92e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 81, time: 0.04 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 81 @ 0.040500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.27e+00, limit = 1.00e-04, normalization = 1.48e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.58e-03, limit = 1.00e-04, normalization = 2.80e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 81, time: 0.04 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 81 @ 0.040500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.68e-01, limit = 1.00e-04, normalization = 3.17e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.46e-05, limit = 1.00e-04, normalization = 2.80e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 81, time: 0.04 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 81 @ 0.040500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.63e-03, limit = 1.00e-04, normalization = 3.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.16e-06, limit = 1.00e-04, normalization = 2.80e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 81, time: 0.04 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 81 @ 0.040500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.44e-04, limit = 1.00e-04, normalization = 3.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.20e-08, limit = 1.00e-04, normalization = 2.80e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 81, time: 0.04 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 81 @ 0.040500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.30e-06, limit = 1.00e-04, normalization = 3.19e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.44e-09, limit = 1.00e-04, normalization = 2.80e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 82, time: 0.0405 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 82 @ 0.041000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.19e+01, limit = 1.00e-04, normalization = 2.93e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.57e-03, limit = 1.00e-04, normalization = 2.67e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 82, time: 0.0405 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 82 @ 0.041000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.94e-01, limit = 1.00e-04, normalization = 2.41e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.95e-05, limit = 1.00e-04, normalization = 2.67e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 82, time: 0.0405 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 82 @ 0.041000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.60e-03, limit = 1.00e-04, normalization = 2.41e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.60e-06, limit = 1.00e-04, normalization = 2.67e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 82, time: 0.0405 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 82 @ 0.041000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.32e-04, limit = 1.00e-04, normalization = 2.41e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.56e-07, limit = 1.00e-04, normalization = 2.67e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 82, time: 0.0405 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 82 @ 0.041000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.01e-05, limit = 1.00e-04, normalization = 2.41e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.55e-09, limit = 1.00e-04, normalization = 2.67e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 83, time: 0.041 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 83 @ 0.041500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.76e+00, limit = 1.00e-04, normalization = 6.38e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.78e-03, limit = 1.00e-04, normalization = 2.54e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 83, time: 0.041 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 83 @ 0.041500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.50e+00, limit = 1.00e-04, normalization = 1.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.42e-05, limit = 1.00e-04, normalization = 2.54e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 83, time: 0.041 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 83 @ 0.041500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.28e-02, limit = 1.00e-04, normalization = 1.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.18e-06, limit = 1.00e-04, normalization = 2.54e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 83, time: 0.041 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 83 @ 0.041500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.58e-03, limit = 1.00e-04, normalization = 1.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.48e-07, limit = 1.00e-04, normalization = 2.54e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 83, time: 0.041 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 83 @ 0.041500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.21e-05, limit = 1.00e-04, normalization = 1.19e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.14e-08, limit = 1.00e-04, normalization = 2.54e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 84, time: 0.0415 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 84 @ 0.042000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.50e+00, limit = 1.00e-04, normalization = 4.66e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.46e-03, limit = 1.00e-04, normalization = 2.40e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 84, time: 0.0415 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 84 @ 0.042000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.62e-01, limit = 1.00e-04, normalization = 3.17e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.83e-05, limit = 1.00e-04, normalization = 2.40e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 84, time: 0.0415 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 84 @ 0.042000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.46e-03, limit = 1.00e-04, normalization = 3.19e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.84e-06, limit = 1.00e-04, normalization = 2.40e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 84, time: 0.0415 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 84 @ 0.042000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.14e-04, limit = 1.00e-04, normalization = 3.20e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.64e-08, limit = 1.00e-04, normalization = 2.40e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 84, time: 0.0415 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 84 @ 0.042000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.02e-05, limit = 1.00e-04, normalization = 3.20e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.13e-10, limit = 1.00e-04, normalization = 2.40e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 85, time: 0.042 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 85 @ 0.042500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.30e+01, limit = 1.00e-04, normalization = 2.67e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.81e-03, limit = 1.00e-04, normalization = 2.26e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 85, time: 0.042 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 85 @ 0.042500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.29e+00, limit = 1.00e-04, normalization = 5.31e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.06e-04, limit = 1.00e-04, normalization = 2.26e-02, conv = false ---[precice]  iteration: 3 of 10, time-window: 85, time: 0.042 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 85 @ 0.042500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.03e-01, limit = 1.00e-04, normalization = 5.46e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.54e-06, limit = 1.00e-04, normalization = 2.26e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 85, time: 0.042 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 85 @ 0.042500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.51e-03, limit = 1.00e-04, normalization = 5.47e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.93e-08, limit = 1.00e-04, normalization = 2.26e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 85, time: 0.042 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 85 @ 0.042500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.88e-05, limit = 1.00e-04, normalization = 5.47e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.04e-10, limit = 1.00e-04, normalization = 2.26e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 86, time: 0.0425 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 86 @ 0.043000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.32e+00, limit = 1.00e-04, normalization = 2.43e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.47e-03, limit = 1.00e-04, normalization = 2.12e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 86, time: 0.0425 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 86 @ 0.043000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.08e+00, limit = 1.00e-04, normalization = 2.96e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.42e-05, limit = 1.00e-04, normalization = 2.12e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 86, time: 0.0425 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 86 @ 0.043000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.13e-03, limit = 1.00e-04, normalization = 2.97e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.36e-07, limit = 1.00e-04, normalization = 2.12e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 86, time: 0.0425 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 86 @ 0.043000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.72e-05, limit = 1.00e-04, normalization = 2.97e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.33e-09, limit = 1.00e-04, normalization = 2.12e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 87, time: 0.043 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 87 @ 0.043500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.84e+00, limit = 1.00e-04, normalization = 7.72e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.27e-03, limit = 1.00e-04, normalization = 1.98e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 87, time: 0.043 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 87 @ 0.043500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 6.80e-01, limit = 1.00e-04, normalization = 2.33e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.38e-05, limit = 1.00e-04, normalization = 1.98e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 87, time: 0.043 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 87 @ 0.043500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.02e-03, limit = 1.00e-04, normalization = 2.32e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.60e-06, limit = 1.00e-04, normalization = 1.98e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 87, time: 0.043 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 87 @ 0.043500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.20e-04, limit = 1.00e-04, normalization = 2.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.65e-07, limit = 1.00e-04, normalization = 1.98e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 87, time: 0.043 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 87 @ 0.043500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.39e-05, limit = 1.00e-04, normalization = 2.31e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.47e-09, limit = 1.00e-04, normalization = 1.98e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 88, time: 0.0435 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 88 @ 0.044000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.21e+01, limit = 1.00e-04, normalization = 1.09e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.94e-03, limit = 1.00e-04, normalization = 1.84e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 88, time: 0.0435 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 88 @ 0.044000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.04e+00, limit = 1.00e-04, normalization = 2.02e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.04e-05, limit = 1.00e-04, normalization = 1.84e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 88, time: 0.0435 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 88 @ 0.044000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.15e-03, limit = 1.00e-04, normalization = 2.01e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.45e-07, limit = 1.00e-04, normalization = 1.84e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 88, time: 0.0435 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 88 @ 0.044000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.71e-04, limit = 1.00e-04, normalization = 2.01e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.08e-08, limit = 1.00e-04, normalization = 1.84e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 88, time: 0.0435 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 88 @ 0.044000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.99e-06, limit = 1.00e-04, normalization = 2.01e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.29e-10, limit = 1.00e-04, normalization = 1.84e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 89, time: 0.044 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 89 @ 0.044500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.23e+01, limit = 1.00e-04, normalization = 9.36e+02, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.31e-03, limit = 1.00e-04, normalization = 1.69e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 89, time: 0.044 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 89 @ 0.044500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.70e-01, limit = 1.00e-04, normalization = 2.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.82e-06, limit = 1.00e-04, normalization = 1.69e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 89, time: 0.044 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 89 @ 0.044500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.87e-04, limit = 1.00e-04, normalization = 2.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.41e-07, limit = 1.00e-04, normalization = 1.69e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 89, time: 0.044 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 89 @ 0.044500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.22e-04, limit = 1.00e-04, normalization = 2.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.78e-08, limit = 1.00e-04, normalization = 1.69e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 89, time: 0.044 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 89 @ 0.044500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.86e-06, limit = 1.00e-04, normalization = 2.50e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.12e-09, limit = 1.00e-04, normalization = 1.69e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 90, time: 0.0445 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 90 @ 0.045000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.63e+00, limit = 1.00e-04, normalization = 6.86e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.18e-03, limit = 1.00e-04, normalization = 1.54e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 90, time: 0.0445 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 90 @ 0.045000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.73e+00, limit = 1.00e-04, normalization = 3.71e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.49e-05, limit = 1.00e-04, normalization = 1.55e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 90, time: 0.0445 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 90 @ 0.045000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.22e-02, limit = 1.00e-04, normalization = 3.75e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.91e-06, limit = 1.00e-04, normalization = 1.55e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 90, time: 0.0445 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 90 @ 0.045000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.74e-03, limit = 1.00e-04, normalization = 3.76e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.40e-07, limit = 1.00e-04, normalization = 1.55e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 90, time: 0.0445 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 90 @ 0.045000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.35e-04, limit = 1.00e-04, normalization = 3.76e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.74e-09, limit = 1.00e-04, normalization = 1.55e-02, conv = true ---[precice]  iteration: 6 of 10, time-window: 90, time: 0.0445 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 90 @ 0.045000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.80e-06, limit = 1.00e-04, normalization = 3.76e+03, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.26e-10, limit = 1.00e-04, normalization = 1.55e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 91, time: 0.045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 91 @ 0.045500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.00e+00, limit = 1.00e-04, normalization = 3.45e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.50e-03, limit = 1.00e-04, normalization = 1.40e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 91, time: 0.045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 91 @ 0.045500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.06e-01, limit = 1.00e-04, normalization = 3.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.12e-05, limit = 1.00e-04, normalization = 1.40e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 91, time: 0.045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 91 @ 0.045500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.37e-04, limit = 1.00e-04, normalization = 3.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.18e-06, limit = 1.00e-04, normalization = 1.40e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 91, time: 0.045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 91 @ 0.045500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.90e-04, limit = 1.00e-04, normalization = 3.51e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.74e-07, limit = 1.00e-04, normalization = 1.40e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 91, time: 0.045 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 91 @ 0.045500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.57e-05, limit = 1.00e-04, normalization = 3.51e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.60e-09, limit = 1.00e-04, normalization = 1.40e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 92, time: 0.0455 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 92 @ 0.046000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.17e+01, limit = 1.00e-04, normalization = 3.27e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.43e-03, limit = 1.00e-04, normalization = 1.25e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 92, time: 0.0455 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 92 @ 0.046000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.97e-01, limit = 1.00e-04, normalization = 1.35e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.89e-05, limit = 1.00e-04, normalization = 1.25e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 92, time: 0.0455 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 92 @ 0.046000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.30e-03, limit = 1.00e-04, normalization = 1.36e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.03e-06, limit = 1.00e-04, normalization = 1.25e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 92, time: 0.0455 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 92 @ 0.046000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.02e-04, limit = 1.00e-04, normalization = 1.36e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.49e-07, limit = 1.00e-04, normalization = 1.25e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 92, time: 0.0455 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 92 @ 0.046000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.18e-05, limit = 1.00e-04, normalization = 1.36e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.44e-09, limit = 1.00e-04, normalization = 1.25e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 93, time: 0.046 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 93 @ 0.046500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.83e+00, limit = 1.00e-04, normalization = 4.77e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.83e-03, limit = 1.00e-04, normalization = 1.11e-02, conv = false ---[precice]  iteration: 2 of 10, time-window: 93, time: 0.046 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 93 @ 0.046500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.24e+00, limit = 1.00e-04, normalization = 1.94e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.57e-05, limit = 1.00e-04, normalization = 1.11e-02, conv = true ---[precice]  iteration: 3 of 10, time-window: 93, time: 0.046 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 93 @ 0.046500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.91e-03, limit = 1.00e-04, normalization = 1.95e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.11e-06, limit = 1.00e-04, normalization = 1.11e-02, conv = true ---[precice]  iteration: 4 of 10, time-window: 93, time: 0.046 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 93 @ 0.046500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.35e-04, limit = 1.00e-04, normalization = 1.95e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.09e-07, limit = 1.00e-04, normalization = 1.11e-02, conv = true ---[precice]  iteration: 5 of 10, time-window: 93, time: 0.046 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 93 @ 0.046500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.68e-05, limit = 1.00e-04, normalization = 1.95e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.84e-08, limit = 1.00e-04, normalization = 1.11e-02, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 94, time: 0.0465 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 94 @ 0.047000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.19e+00, limit = 1.00e-04, normalization = 6.10e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.62e-03, limit = 1.00e-04, normalization = 9.66e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 94, time: 0.0465 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 94 @ 0.047000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 7.84e-01, limit = 1.00e-04, normalization = 2.64e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.65e-05, limit = 1.00e-04, normalization = 9.67e-03, conv = true ---[precice]  iteration: 3 of 10, time-window: 94, time: 0.0465 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 94 @ 0.047000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.69e-03, limit = 1.00e-04, normalization = 2.65e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.65e-06, limit = 1.00e-04, normalization = 9.67e-03, conv = true ---[precice]  iteration: 4 of 10, time-window: 94, time: 0.0465 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 94 @ 0.047000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.88e-04, limit = 1.00e-04, normalization = 2.65e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.00e-07, limit = 1.00e-04, normalization = 9.67e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 94, time: 0.0465 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 94 @ 0.047000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.81e-05, limit = 1.00e-04, normalization = 2.65e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.71e-09, limit = 1.00e-04, normalization = 9.67e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 95, time: 0.047 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 95 @ 0.047500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.50e+01, limit = 1.00e-04, normalization = 1.88e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.10e-02, limit = 1.00e-04, normalization = 8.22e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 95, time: 0.047 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 95 @ 0.047500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.11e+00, limit = 1.00e-04, normalization = 1.50e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.81e-04, limit = 1.00e-04, normalization = 8.23e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 95, time: 0.047 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 95 @ 0.047500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.57e-02, limit = 1.00e-04, normalization = 1.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.69e-05, limit = 1.00e-04, normalization = 8.23e-03, conv = true ---[precice]  iteration: 4 of 10, time-window: 95, time: 0.047 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 95 @ 0.047500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.15e-03, limit = 1.00e-04, normalization = 1.45e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 4.16e-07, limit = 1.00e-04, normalization = 8.23e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 95, time: 0.047 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 95 @ 0.047500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.84e-05, limit = 1.00e-04, normalization = 1.45e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.67e-08, limit = 1.00e-04, normalization = 8.23e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 96, time: 0.0475 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 96 @ 0.048000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.42e+01, limit = 1.00e-04, normalization = 1.02e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.51e-02, limit = 1.00e-04, normalization = 6.78e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 96, time: 0.0475 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 96 @ 0.048000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.02e+00, limit = 1.00e-04, normalization = 3.07e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.41e-05, limit = 1.00e-04, normalization = 6.79e-03, conv = true ---[precice]  iteration: 3 of 10, time-window: 96, time: 0.0475 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 96 @ 0.048000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.87e-03, limit = 1.00e-04, normalization = 3.08e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.49e-06, limit = 1.00e-04, normalization = 6.79e-03, conv = true ---[precice]  iteration: 4 of 10, time-window: 96, time: 0.0475 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 96 @ 0.048000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.30e-04, limit = 1.00e-04, normalization = 3.08e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.29e-07, limit = 1.00e-04, normalization = 6.79e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 96, time: 0.0475 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 96 @ 0.048000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.13e-05, limit = 1.00e-04, normalization = 3.08e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 7.79e-09, limit = 1.00e-04, normalization = 6.79e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 97, time: 0.048 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 97 @ 0.048500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.90e+00, limit = 1.00e-04, normalization = 7.88e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.49e-02, limit = 1.00e-04, normalization = 5.35e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 97, time: 0.048 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 97 @ 0.048500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 5.24e-01, limit = 1.00e-04, normalization = 1.31e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.12e-04, limit = 1.00e-04, normalization = 5.36e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 97, time: 0.048 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 97 @ 0.048500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.00e-02, limit = 1.00e-04, normalization = 1.32e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.27e-07, limit = 1.00e-04, normalization = 5.36e-03, conv = true ---[precice]  iteration: 4 of 10, time-window: 97, time: 0.048 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 97 @ 0.048500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 8.27e-05, limit = 1.00e-04, normalization = 1.32e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.12e-07, limit = 1.00e-04, normalization = 5.36e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 98, time: 0.0485 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 98 @ 0.049000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.09e+01, limit = 1.00e-04, normalization = 1.15e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.30e-02, limit = 1.00e-04, normalization = 3.95e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 98, time: 0.0485 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 98 @ 0.049000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.70e-01, limit = 1.00e-04, normalization = 2.66e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.09e-04, limit = 1.00e-04, normalization = 3.96e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 98, time: 0.0485 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 98 @ 0.049000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.73e-03, limit = 1.00e-04, normalization = 2.67e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.32e-06, limit = 1.00e-04, normalization = 3.96e-03, conv = true ---[precice]  iteration: 4 of 10, time-window: 98, time: 0.0485 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 98 @ 0.049000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.52e-04, limit = 1.00e-04, normalization = 2.67e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 5.04e-07, limit = 1.00e-04, normalization = 3.96e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 98, time: 0.0485 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 98 @ 0.049000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.81e-05, limit = 1.00e-04, normalization = 2.67e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 9.07e-10, limit = 1.00e-04, normalization = 3.96e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 99, time: 0.049 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 99 @ 0.049500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.50e+01, limit = 1.00e-04, normalization = 1.91e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 2.93e-02, limit = 1.00e-04, normalization = 2.64e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 99, time: 0.049 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 99 @ 0.049500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 9.07e-01, limit = 1.00e-04, normalization = 1.73e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.29e-04, limit = 1.00e-04, normalization = 2.66e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 99, time: 0.049 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 99 @ 0.049500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 2.96e-02, limit = 1.00e-04, normalization = 1.78e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.08e-05, limit = 1.00e-04, normalization = 2.66e-03, conv = true ---[precice]  iteration: 4 of 10, time-window: 99, time: 0.049 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 99 @ 0.049500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.80e-04, limit = 1.00e-04, normalization = 1.78e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.46e-07, limit = 1.00e-04, normalization = 2.66e-03, conv = true ---[precice]  iteration: 5 of 10, time-window: 99, time: 0.049 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 99 @ 0.049500s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 3.87e-06, limit = 1.00e-04, normalization = 1.78e+04, conv = true ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 1.47e-08, limit = 1.00e-04, normalization = 2.66e-03, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 10, time-window: 100, time: 0.0495 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 100 @ 0.050000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 4.28e+00, limit = 1.00e-04, normalization = 5.41e+03, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 3.98e-02, limit = 1.00e-04, normalization = 1.74e-03, conv = false ---[precice]  iteration: 2 of 10, time-window: 100, time: 0.0495 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 100 @ 0.050000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.36e+00, limit = 1.00e-04, normalization = 1.48e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 6.53e-04, limit = 1.00e-04, normalization = 1.75e-03, conv = false ---[precice]  iteration: 3 of 10, time-window: 100, time: 0.0495 of 5, time-window-size: 0.0005, max-timestep-length: 0.0005, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Advancing the adapter: Leaved the subsection Reloading old data if required... Advancing the adapte: Writing the data to output Timestep 100 @ 0.050000s Assembling the R.H.S .... Solving... Direct solver: No of iterations: 1 Final residual: 0.000000 Advancing in time... Advancing the adapter: Entering the subsection ---[precice]  relative convergence measure: relative two-norm diff of data "Stress" = 1.42e-02, limit = 1.00e-04, normalization = 1.46e+04, conv = false ---[precice]  relative convergence measure: relative two-norm diff of data "Displacement" = 8.43e-06, limit = 1.00e-04, normalization = 1.75e-03, conv = true [vinci114:197102] *** Process received signal *** [vinci114:197102] Signal: Segmentation fault (11) [vinci114:197102] Signal code: Address not mapped (1) [vinci114:197102] Failing at address: 0x59 [vinci114:197102] [ 0] /lib64/libc.so.6(+0x37400)[0x1488c073a400] [vinci114:197102] [ 1] /software/precice/2.3.0/lib64/libprecice.so.2(_ZN7precice3com15SocketSendQueue7processEv+0x6d)[0x1488c46fbbcd] [vinci114:197102] [ 2] /software/precice/2.3.0/lib64/libprecice.so.2(+0x1a3c19)[0x1488c46fcc19] [vinci114:197102] [ 3] /software/precice/2.3.0/lib64/libprecice.so.2(_ZN5boost4asio6detail9scheduler3runERNS_6system10error_codeE+0x493)[0x1488c46f6bd3] [vinci114:197102] [ 4] /software/precice/2.3.0/lib64/libprecice.so.2(+0x188ede)[0x1488c46e1ede] [vinci114:197102] [ 5] /software/gcc/7.5.0/lib64/libstdc++.so.6(+0xc252f)[0x1488c0f0c52f] [vinci114:197102] [ 6] /lib64/libpthread.so.0(+0x817a)[0x1488c04eb17a] [vinci114:197102] [ 7] /lib64/libc.so.6(clone+0x43)[0x1488c07ffdc3] [vinci114:197102] *** End of error message *** ./runSolid: line 27: 197102 Segmentation fault (core dumped) ./Solid/linearGuideTube Solid/linearGuideTube.prm